Spatial Environmental Quality Assessment Of Settlement Area In Tangerang City

https://doi.org/10.22146/ijg.65825

Dwi Nowo Martono(1*), Halvina Grasela Saiya(2), Saiful Amri(3)

(1) School of Environmental Science, Universitas Indonesia
(2) School of Environmental Science, Universitas Indonesia
(3) School of Environmental Science, Universitas Indonesia
(*) Corresponding Author

Abstract


This study aims to describe the role of changes in the characteristics of spatial patterns on the environmental quality in Tangerang City, Indonesia. It was carried out by detecting and explaining the effect of thermal comfort on the residential area using a combination of spatial and statistical analysis methods. The results showed that the changes in the characteristics of the spatial pattern, which include building density, vegetation area, accessibility, and road network connectivity significantly affected the spatial environmental quality index (IKLS) and temperature heat index (THI). Meanwhile, the changes in THI were caused by the continuous decline in vegetation area and an increase in population due to the urbanization process of Jakarta and other cities.


Keywords


city; settlement; spatial; environmental quality assessment

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References

Aguilar. (2008). Peri-urbanization, illegal settlements and environmental impact in Mexico City. Cities Environmental, 25(ue 3), 133–145,. https://doi.org/10.1016/j.cities.2008.02.003

Anselin. L. ( 2020). An Introduction to Spatial Data Analysis, Basic Mapping, GeoDA. https://geodacenter.github.io/workbook/3a_mapping/lab3a.html#natural-breaks-map

BMKG (Badan Meteorologi, Klimatologi dan Geofisika), 2021. Pusat Database BMKG

Central Bureau of Statistics. (2018). Tangerang Dalam Angka. Badan Pusat Statistik

Central Bureau of Statistics. (2021). Tangerang Dalam Angka. Badan Pusat Statistik

Cheng, Z., Li, L., & Liu, J. (2017). Identifying the spatial effects and driving factors of urban PM2.5 pollution in China, Institute of Manufacturing Development. Ecological Indicators Journal, 82, 61–75.

Clos, J. (2011). Keynote speech in International Symposium on Sciences of Human Settlements. Proceedings of the International Symposium on Sciences of Human Settlements.

Das, N., Mondal, P., Sutradhar, S., & Ghosh, R. (2021). Assessment of variation of land use/land cover and its impact on land surface temperature of Asansol subdivision. The Egyptian Journal of Remote Sensing and Space Science, 24(1), 131-149.

Fatimah, E. (2010). Keberlanjutan Pembangunan Kota Dilandasi Daya Dukung Lingkungan”, Pembangunan Kota Indonesia dalam Abad 21 : Konsep dan Pendekatan Pembangunan Perkotaan di Indonesia. Jakarta.

Ganebnykhl, E. (2019). Tatyana Burtsevat, Nataliya Mironova and Oksana Feoktistova.2019. Quality assessment of urban environment. E3S Web of Conferences, 110, 0, 20191100 –2018. https://doi.org/10.1051/e3sconf

Gomez, F., Gil, L., & Jabaloyes, J. (2004). Experimental Investigation on the Thermal Comfort in the City: Relationship with the Green Areas. Interaction with the Urban Microclimate. J Building and Environment, 39, 1077–1086.

Gohain, K.J., Mohammad, P., & Goswami, A. (2021), Assessing the impact of land use land cover changes on land surface temperature over Pune city, India. Quaternary International 575 (2021): 259-269

Hadi, R., Lila, K. A., & Gunadi, I. G. A. (2012). Evaluasi Indeks Kenyamanan Taman Kota (Lapangan Puputan Badung I15 Gusti Ngurah Made Agung) Denpasar, Bali. J Agroekoteknologi Tropika, 1(3445).

Hamdani, A. F., & Susanti, N. E. (2017). Perubahan Pengunaan Lahan Dan Pengaruhnya Terhadap Perubahan Iklim Kota Malang. JPIG (Jurnal Pendidikan Dan Ilmu Geografi, 2(2).

Hayati, J., Sitorus, S. R., & Nurisjah, S. (2013). Pengembangan ruang terbuka hijau dengan pendekatan kota hijau di Kota Kandangan. Tata Loka, 15(4), 306–316.

Hou, L., Wu, F., & Xie, X. (2019). The spatial characteristics and relationships between landscape pattern and ecosystem service value along an urban-rural gradient in Xi’an city. Institute of Soil and Water Conservation, Northwest A&F University, Yangling 712100.

Integrated Plan and Medium-Term Investment Program of Tangerang City. (2019). Direktorat Cipta Karya.

Jing, Y., & etal. (2020). Assessment of spatial and temporal variation of ecological environment quality in Ebinur Lake Wetland National Nature Reserve. Ecological Indicators Journal, 110, 1470–160. https://doi.org/10.1016/j.ecolind.2019.105874.

Landrigan, P. J. (2017). Air pollution and health. Lancet Public Health, 2, 4– 5.

Lazauskaitė, D. (2015). Quality Analysis and Integrated Assessment of Residential Environment of Developing Suburban Settlements (Doctoral dissertation, VGTU leidykla „Technika “).

Lu, Y., Nicholas, C. C., & Txomin, H. (2017). Estimating urban vegetation fraction across 25 cities in pan-Pacific using Landsat time series data. ISPRS J. Photogramm. Remote Sens, 126, 11–23.

Madsen, M. F., Kristensen, S. B. P., Fertner, C., Busck, A. G., & Jørgensen, G. (2018). Urbanisation of rural areas: A casestudy from Jutland, Denmark. Dan. J. Geogr, 110, 47–63.

Marland, G., Pielke, R. A. S., Apps, M., Avissar, R., Betts, R. A., Davis, K. J., Frumhoff, P. C., Jackson, S. T., Joyce, L. A., Kauppi, P., Katzenberger, J., MacDicken, K. G., Neilson, R. P., Niles, J. O., Niyogi, D. D. S., Norby, R. J., Pena, N., Sampson, N., & Xue, Y. (2018). The climatic impacts of land surface change and carbon management, and the implications for climate-change mitigation policy. Clim Policy, 3, 149–157.

Mateus, P., Mendes, V.B., & Plecha, S.M. (2021). HGPT2: An ERA5-Based Global Model to Estimate Relative Humidity. Remote Sens. 2021, 13, 2179. https://doi.org/10.3390/rs13112179

Mayasari, M., & Ritohardoyo, S. (2016). Kualitas Permukiman di Kecamatan Pasar Kliwon Kota Surakarta. Jurnal Bumi Indonesia, 1(3), 11–20.

Mustafa, E. K., Liu, G., El-Hamid, A., Hazem, T., & Kaloop, M. R. (2021). Simulation of land use dynamics and impact on land surface temperature using satellite data. GeoJournal, 86(3), 1089-1107.

Nurwita, M., Maesaroh, M., & Widowati, N. (2021). Upaya Dinas Lingkungan Hidup Dalam Pengendalian Pencemaran Udara Di Kota Tangerang. Journal of Public Policy and Management Review, 10(2), 533-546.

Nurhidayat, M., & Marwasta, D. (2018). Kajian Kualitas dan Kenyamanan Termal Permukiman untuk Arahan Penataan Permukiman Berbasis Eco-settlements di Kelurahan Pandeyan Kota Yogyakarta. Jurnal Bumi Indonesia, 7(1).

Oliveira, S., Andrade, H., & Vaz, T. (2011). The Cooling Effect of Green Spaces as a Contribution to the Mitigation of Urban Heat: A Case Study in Lisbon. J Building and Enivironment, 46(21862194).

Ovsiannikova, T., & Nikolaenko, M. (2019). Quality assessment of urban environment. IOP Conference Series: Materials Science and Engineering, 71. 012051, 10 1088 1757–899 71 1 012051.

Pigawati, N. Y., Mardiansjah, F. H., & Suryani, M. A. (2019). Changes of Settlement Environmental Quality in Semarang City Center. IOP Conference Series: Earth and Environmental Science, 313.

Purba, J. (2016). Pengelolaan lingkungan Sosial, Kantor Menteri Negara Lingkungan Hidup dan Yayasan Obor Indonesia.

Rahel. (2017). Studi Ruang Terbuka Kota Tangerang. Proceedings of the International Symposium on Sciences of Human Settlements.

Rosu, L., Corodescu, E., & Blageanu, A. (2015). Does geographical location matter? Assessing spatial patterns in perceived quality of life in European cities. European Journal of Geography, 6(2), 15–34.

Sahana, M., Ahmed, R., & Sajjad, H. (2016). Analyzing land surface temperature distribution in response to land use/land cover change using split window algorithm and spectral radiance model in Sundarban Biosphere Reserve, India. Modeling Earth Systems and Environment, 2(2), 81.

Salvati, L., Zambon, I., Chelli, F. M., & Serra, P. (2018). Do spatial patterns of urbanization and land consumption reflect different socioeconomic contexts in Europe? Sci. Total Environment, 625, 722–730.

Srivastava, P. K., Majumdar, T. J., & Bhattacharya, A. K. (2016). Study of land surface temperature and spectral emissivity using multi-sensor satellite data. J Earth Syst Sci, 11, 67–74.

Supriyono, H. (2003). Dasar-Dasar Upaya Pengelolaan Lingkungan dan Upaya Pemantauan Lingkungan, Bahan Kursus AMDAL Type A. BAPEDAL-PPLH UGM.

Surya, B., Hadijah, H., Suriani, S., Baharuddin, B., Fitriyah, A. T., Menne, F., & Rasyidi, E. S. (2020). Spatial Transformation of a New City in 2006–2020: Perspectives on the Spatial Dynamics, Environmental Quality Degradation, and Socio—Economic Sustainability of Local Communities in Makassar City, Indonesia. Land Enviromental Assessment, 9, 324.

Suryani, A. S. (2016). Tantangan implementasi konsep eco-settlement dalam Undang-undang No. 1 tahun 2011 tentang perumahan dan kawasan permukiman. Aspirasi: Jurnal Masalah-Masalah Sosial, 2(1), 1–15.

Syarmaalina, A. (2017). Kajian Kualitas Lingkungan Binaan Di Kota Depok, Seminar Nasional Cendekiawan ke 3 Tahun 2017. Jounal of Environmental, N (E), 2540 – 7589.

Tangerang City Central Bureau of Statistics. (2020). Tangerang Dalam Angka. Badan Pusat Statistik

Tanner, E. P., & Fuhlendorf, S. D. (2018). Impact of an agri-environmental scheme on landscape patterns. Agri Environmental, 85, 956–965.

Thiis, T. K., Burud, I., Flø, A., Kraniotis, D., Charisi, S., & Stefansson, P. (2017). Monitoring and simulation of diurnal surface conditions of a wooden facade. Procedia environmental sciences, 38, 331-339.

Vaz, E., Painho, M., & Nijkamp, P. (2015). Linking agricultural policies with decision-making: A spatial approach.Eur. Agricultural, 23, 733–745.

Verburg, P. H., Chen, Y., Soepboer, W., & Veldkamp, T. A. (2018). GIS-based modeling of human-environment interactions for natural resource management applications in Asia. Proceedings of the 4th International Conference on Integrating GIS and Environmental Modelling (GIS/EM4): Problems, Prospects and Research Needs.

Walter, J. (2016). Ecological role of lactobacilli in the gastrointestinal tract: Implications for fundamental and biomedical research. Appl. Environ. Microbiol, 74, 4985.

Wesnawa, I. G. (2017). Perubahan Lingkungan Permukiman Mikro Daerah Perkotaan Berbasis Konsep Tri Hita Karana di Kabupaten Buleleng Bali Forum Geogr (Vol. 24, pp. 111–8).

Whyne-Hammond, C. (1985). Elements of Human Geography. George & Unwin.

Wibowo, A., Rustanto, A., & Shidiq, I. P. A. (2013). Spatial-temporal analysis of urban heat island in tangerang city. Indonesian Journal of Geography, 45(2), 101–115.

World Health Organization. (2016). Urban Outdoor Air Pollution Database. World Health Organization.

Yang, J., Huang, C., Zhang, Z., & Wang, L. (2018). The temporal trend of urban green coverage in major Chinese cities between 1990 and 2010. Urban For. Urban Gree, 13, 19–27.

Zhou, W., Huang, G., & Cadenasso, M. L. (2011). Does Spatial Configuration Matter? Understanding The Effects of Land Cover Pattern on Land surface temperature in Urban Landscapes. Landscape and Urban Planning, 102):54-63.

Zhu, Y. G., Ioannidis, J. P. A., Li, H., Jones, K. C., & Martin, F. L. (2016). Understanding and harnessing the health effects of rapid urbanization in China. Environ. Sci. Technology, 45, 5099–5104.



DOI: https://doi.org/10.22146/ijg.65825

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